XH02 Oculus Touch Controller Test Report Facebook Technologies, LLC

Facebook Technologies, LLC Oculus Touch Controller

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FCC Test Report
Report No. : FR8O0801-01AG
FCC Test Report
FCC ID
2AGOZ-XH02
Equipment
Oculus Touch Controller
Brand Name
Model Name
MI-BL
Applicant
Facebook Technologies, LLC
1 Hacker Way, Menlo Park, CA 94025, USA
Manufacturer
Facebook Technologies, LLC
1 Hacker Way, Menlo Park, CA 94025, USA
Standard
47 CFR FCC Part 15.247
The product was received on Dec. 10, 2018, and testing was started from Dec. 12, 2018 and
completed on Dec. 13, 2018. We, SPORTON INTERNATIONAL INC. EMC & Wireless
Communications Laboratory, would like to declare that the tested sample has been evaluated in
accordance with the procedures given in ANSI C63.10-2013 and shown compliance with the
applicable technical standards.
The report must not be used by the client to claim product certification, approval, or
endorsement by TAF or any agency of government.
The test results in this report apply exclusively to the tested model / sample. Without written
approval of SPORTON INTERNATIONAL INC. EMC & Wireless Communications Laboratory, the
test report shall not be reproduced except in full.
___________________________________________
Approved by: Allen Lin
SPORTON INTERNATIONAL INC. EMC & Wireless Communications Laboratory
No. 52, Huaya 1st Rd., Guishan Dist., Taoyuan City, Taiwan (R.O.C.)
TEL : 886-3-3273456
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Report Template No.: HE1-C8 Ver3.1
FCC ID: 2AGOZ-XH02
Issued Date
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: Dec. 21, 2018
: 02
FCC Test Report
Report No. : FR8O0801-01AG
Table of Contents
HISTORY OF THIS TEST REPORT .................................................................................................................. 3
SUMMARY OF TEST RESULT ......................................................................................................................... 4
GENERAL DESCRIPTION .................................................................................................................... 5
1.1
Information.............................................................................................................................................. 5
1.2
Testing Applied Standards ..................................................................................................................... 7
1.3
Testing Location Information .................................................................................................................. 7
1.4
Measurement Uncertainty ...................................................................................................................... 7
TEST CONFIGURATION OF EUT......................................................................................................... 8
2.1
Test Condition ........................................................................................................................................ 8
2.2
Test Channel Mode ................................................................................................................................ 8
2.3
The Worst Case Measurement Configuration ........................................................................................ 8
2.4
Accessories ............................................................................................................................................ 9
2.5
Support Equipment ................................................................................................................................. 9
2.6
Test Setup Diagram ............................................................................................................................... 9
TRANSMITTER TEST RESULT ..........................................................................................................10
3.1
AC Power-line Conducted Emissions ..................................................................................................10
3.2
DTS Bandwidth.....................................................................................................................................12
3.3
Maximum Conducted Output Power ....................................................................................................13
3.4
Power Spectral Density ........................................................................................................................15
3.5
Emissions in Non-restricted Frequency Bands ....................................................................................16
3.6
Emissions in Restricted Frequency Bands ...........................................................................................17
TEST EQUIPMENT AND CALIBRATION DATA ................................................................................20
APPENDIX A. TEST RESULTS OF DTS BANDWIDTH
APPENDIX B. TEST RESULTS OF MAXIMUM CONDUCTED OUTPUT POWER
APPENDIX C. TEST RESULTS OF POWER SPECTRAL DENSITY
APPENDIX D. TEST RESULTS OF EMISSIONS IN NON-RESTRICTED FREQUENCY BANDS
APPENDIX E. TEST RESULTS OF EMISSIONS IN RESTRICTED FREQUENCY BANDS
APPENDIX F. TEST PHOTOS
PHOTOGRAPHS OF EUT V01
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Report No. : FR8O0801-01AG
History of this test report
Report No.
Version
Description
Issued Date
FR8O0801-01AG
01
Initial issue of report
Dec. 18, 2018
FR8O0801-01AG
02
Revised table
(This report is the latest version replacing for
the report issued on Dec. 18, 2018.)
Dec. 21, 2018
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Report No. : FR8O0801-01AG
Summary of Test Result
Report
Clause
Ref. Std.
Clause
1.1.2
15.203
Antenna Requirement
3.1
15.207
AC Power-line Conducted Emissions
Test Items
Result
(PASS/FAIL)
Remark
PASS
FCC 15.203
Not Required
FCC 15.207
3.2
15.247(a) DTS Bandwidth
PASS
≥500kHz
3.3
15.247(b) Maximum Conducted Output Power
PASS
Power [dBm]: 30
3.4
15.247(e) Power Spectral Density
PASS
PSD [dBm/3kHz]: 8
3.5
15.247(d) Emissions in Non-restricted Frequency Bands
PASS
Non-Restricted
Bands: > 30 dBc
3.6
15.247(d) Emissions in Restricted Frequency Bands
PASS
Restricted Bands:
FCC 15.209
Declaration of Conformity:
The test results with all measurement uncertainty excluded are presented in accordance with the regulation
limits or requirements declared by manufacturers.
Comments and explanations:
None
Reviewed by: Sam Tsai
Report Producer: Michelle Tsai
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General Description
1.1
Information
1.1.1
RF General Information
Frequency Range (MHz)
Mode
Ch. Frequency (MHz)
2400-2483.5
GFSK
2402-2478
Band
Mode
BWch (MHz)
Nant
2.4-2.4835GHz
GFSK
1TX
Note:

Mode uses a combination of GFSK modulation.

BWch is the nominal channel bandwidth.
1.1.2
Antenna Information
Ant.
Port
Antenna Type
Connector
Gain (dBi)
Dipole
I-Pex
Note 1: The EUT has one antenna.
For GFSK function:
For GFSK mode (1TX/1RX)
Ant. 1 (port 1) and could transmit/receive simultaneously.
1.1.3
EUT Information
Operational Condition
EUT Power Type
From Battery
EUT Function
Point-to-multipoint
Point-to-point
Beamforming Function
With beamforming
Without beamforming
Type of EUT
Stand-alone
Combined (EUT where the radio part is fully integrated within another device)
Combined Equipment - Brand Name / Model No.:
…
Plug-in radio (EUT intended for a variety of host systems)
Host System - Brand Name / Model No.:
…
Other:
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1.1.4
Report No. : FR8O0801-01AG
Mode Test Duty Cycle
Mode
DC
DCF(dB)
T(s)
VBW(Hz) ≥ 1/T
GFSK
0.22
6.576
138u
10k
GFSK
Note. If DC < 0.98, the DCF was added while measuring Output power.
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1.2
Report No. : FR8O0801-01AG
Testing Applied Standards
According to the specifications of the manufacturer, the EUT must comply with the requirements of the
following standards:

47 CFR FCC Part 15

ANSI C63.10-2013

KDB 558074 D01 v05
1.3
Testing Location Information
Testing Location
HWA YA
ADD
No. 52, Huaya 1st Rd., Guishan Dist., Taoyuan City, Taiwan (R.O.C.)
TEL
886-3-327-3456
FAX
886-3-327-0973
Test site Designation No. TW1190 with FCC.
JHUBEI
ADD
No.8, Ln. 724, Bo'ai St., Zhubei City, Hsinchu County, Taiwan (R.O.C.)
TEL
886-3-656-9065
FAX
886-3-656-9085
Test site Designation No. TW0006 with FCC.
Test Condition
Test Site No.
Test Engineer
Test Environment
Test Date
RF Conducted
TH01-HY
Barry
23.2°C / 61%
12/Dec/2018
Radiated
03CH03-HY
Patrick
20.5°C / 56%
13/Dec/2018
1.4
Measurement Uncertainty
ISO/IEC 17025 requires that an estimate of the measurement uncertainties associated with the emissions test
results be included in the report. The measurement uncertainties given below are based on a 95% confidence
level (based on a coverage factor (k=2)
Test Items
Uncertainty
Remark
Conducted Emission (150kHz ~ 30MHz)
3.54 dB
Confidence levels of 95%
Radiated Emission (9kHz ~ 30MHz)
1.6 dB
Confidence levels of 95%
Radiated Emission (30MHz ~ 1,000MHz)
4.3 dB
Confidence levels of 95%
Radiated Emission (1GHz ~ 18GHz)
3.9 dB
Confidence levels of 95%
Radiated Emission (18GHz ~ 40GHz)
3.5 dB
Confidence levels of 95%
Conducted Emission
1.3 dB
Confidence levels of 95%
Temperature
0.7 ℃
Confidence levels of 95%
Humidity
4%
Confidence levels of 95%
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Test Configuration of EUT
2.1
Test Condition
2.2
RF Conducted
Abbreviation
Remark
TnomVnom
Tnom
20°C
Vnom
1.5V
Test Channel Mode
Test Software
2.3
DOS
The Worst Case Measurement Configuration
The Worst Case Mode for Following Conformance Tests
Tests Item
DTS Bandwidth
Maximum Conducted Output Power
Power Spectral Density
Emissions in Non-restricted Frequency Bands
Test Condition
Conducted measurement at transmit chains
The Worst Case Mode for Following Conformance Tests
Tests Item
Test Condition
Emissions in Restricted Frequency Bands
Radiated measurement
If EUT consist of multiple antenna assembly (multiple antenna are used in EUT
regardless of spatial multiplexing MIMO configuration), the radiated test should
be performed with highest antenna gain of each antenna type.
Operating Mode < 1GHz CTX
Battery Mode
Operating Mode > 1GHz CTX
X Plane
Y Plane
Z Plane
Orthogonal Planes of
EUT
Worst Planes of EUT
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2.4
Report No. : FR8O0801-01AG
Accessories
Reminder: Regarding to more detail and other information, please refer to user manual.
2.5
Support Equipment
Support Equipment – RF Conducted
No.
Equipment
Brand Name
Model Name
FCC ID
Notebook
DELL
E5410
DoC
Adapter for NB
DELL
HA65NM130
DoC
DC Power Supply
GW
GPS-3030DD
N/A
Fixture (Client Provide)
N/A
N/A
N/A
2.6
Test Setup Diagram
Test Setup Diagram - Radiated Test
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Transmitter Test Result
3.1
AC Power-line Conducted Emissions
3.1.1
AC Power-line Conducted Emissions Limit
AC Power-line Conducted Emissions Limit
Frequency Emission (MHz)
Quasi-Peak
Average
0.15-0.5
66 - 56 *
56 - 46 *
0.5-5
56
46
5-30
60
50
Note 1: * Decreases with the logarithm of the frequency.
3.1.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.1.3
Test Procedures
Test Method
Refer as ANSI C63.10-2013, clause 6.2 for AC power-line conducted emissions.
3.1.4
Test Setup
AC Power-line Conducted Emissions
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3.1.5
Report No. : FR8O0801-01AG
Test Result of AC Power-line Conducted Emissions
Please refer to FCC 15.207 which states, “Measurements to demonstrate compliance with the conducted
limits are not required for devices employ Battery for operation and which do not operate from the AC power
lines or contain provisions for operation while connected to the AC power lines”.
Therefore, for this device, AC Power Line Conducted Emissions investigation is not required.
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3.2
DTS Bandwidth
3.2.1
6dB Bandwidth Limit
Report No. : FR8O0801-01AG
6dB Bandwidth Limit
Systems using digital modulation techniques:

6 dB bandwidth ≥ 500 kHz.
3.2.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.2.3
Test Procedures
Test Method

For the emission bandwidth shall be measured using one of the options below:
Refer as KDB 558074. clause 8.2 (11.8 of ANSI C63.10) DTS bandwidth measurement.
Refer as RSS-Gen, clause 6.7 for for occupied bandwidth testing.
Refer as ANSI C63.10, clause 6.9.3 for occupied bandwidth testing.
3.2.4
Test Setup
Emission Bandwidth
3.2.5
Test Result of Emission Bandwidth
Refer as Appendix A
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3.3
Maximum Conducted Output Power
3.3.1
Maximum Conducted Output Power Limit
Report No. : FR8O0801-01AG
Maximum Conducted Output Power Limit

If GTX ≤ 6 dBi, then POut ≤ 30 dBm (1 W)

Point-to-multipoint systems (P2M): If GTX > 6 dBi, then POut = 30 – (GTX – 6) dBm

Point-to-point systems (P2P): If GTX > 6 dBi, then POut = 30 – (GTX – 6)/3 dBm

Smart antenna system (SAS):
Single beam: If GTX > 6 dBi, then POut = 30 – (GTX – 6)/3 dBm
Overlap beam: If GTX > 6 dBi, then POut = 30 – (GTX – 6)/3 dBm
Aggregate power on all beams: If GTX > 6 dBi, then POut = 30 – (GTX – 6)/3 + 8dB dBm
e.i.r.p. Power Limit:

2400-2483.5 MHz Band

Point-to-multipoint systems (P2M): Peirp ≤ 36 dBm (4 W)

Point-to-point systems (P2P): Peirp ≤ MAX(36, [POut + GTX]) dBm

Smart antenna system (SAS)
Single beam: Peirp ≤ MAX(36, POut + GTX) dBm
Overlap beam: Peirp ≤ MAX(36, POut + GTX) dBm
Aggregate power on all beams: Peirp ≤ MAX(36, [POut + GTX + 8]) dBm
POut = maximum peak conducted output power or maximum conducted output power in dBm,
GTX = the maximum transmitting antenna directional gain in dBi.
3.3.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
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3.3.3
Report No. : FR8O0801-01AG
Test Procedures
Test Method

Maximum Peak Conducted Output Power
Refer as KDB 558074, clause 8.3.1.1 (11.9.1.1 of ANSI C63.10) RBW ≥ EBW method.
Refer as KDB 558074, clause 8.3.1.2 (11.9.1.2 of ANSI C63.10) integrated band power method.
Refer as KDB 558074, clause 8.3.1.3 (11.9.1.3 of ANSI C63.10) peak power meter.

Maximum Average Conducted Output Power
Refer as KDB 558074, clause 8.3.2.2 (11.9.2.2 of ANSI C63.10) using a spectrum analyzer.
Refer as KDB 558074, clause 8.3.2.3 (11.9.2.3.1 of ANSI C63.10) using a power meter.

For conducted measurement.
3.3.4

If the EUT supports multiple transmit chains using options given below:
Refer as KDB 662911, In-band power measurements. Using the measure-and-sum approach,
measured all transmit ports individually. Sum the power (in linear power units e.g., mW) of all ports
for each individual sample and save them.

If multiple transmit chains, EIRP calculation could be following as methods:
Ptotal = P1 + P2 +… + Pn
(calculated in linear unit [mW] and transfer to log unit [dBm])
EIRPtotal = Ptotal + DG
Test Setup
Maximum Conducted Output Power (Power Meter)
3.3.5
Test Result of Maximum Conducted Output Power
Refer as Appendix B
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3.4
Power Spectral Density
3.4.1
Power Spectral Density Limit
Power Spectral Density Limit

Power Spectral Density (PSD) ≤ 8 dBm/3kHz
3.4.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.4.3
Test Procedures
Test Method

Peak power spectral density procedures that the same method as used to determine the conducted
output power. If maximum peak conducted output power was measured to demonstrate compliance to
the output power limit, then the peak PSD procedure below (Method PKPSD) shall be used. If maximum
conducted output power was measured to demonstrate compliance to the output power limit, then one
of the average PSD procedures shall be used, as applicable based on the following criteria (the peak
PSD procedure is also an acceptable option).
Refer as KDB 558074, clause 8.4 (11.10 of ANSI C63.10) Method PKPSD.

For conducted measurement.

If The EUT supports multiple transmit chains using options given below:

3.4.4
Measure and sum the spectra across the outputs. Refer as KDB 662911, In-band power
spectral density (PSD). Sample all transmit ports simultaneously using a spectrum analyzer
for each transmit port. Where the trace bin-by-bin of each transmit port summing can be
performed. (i.e., in the first spectral bin of output 1 is summed with that in the first spectral bin
of output 2 and that from the first spectral bin of output 3, and so on up to the NTX output to
obtain the value for the first frequency bin of the summed spectrum.). Add up the amplitude
(power) values for the different transmit chains and use this as the new data trace.
Test Setup
Power Spectral Density
3.4.5
Test Result of Power Spectral Density
Refer as Appendix C
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3.5
Emissions in Non-restricted Frequency Bands
3.5.1
Emissions in Non-restricted Frequency Bands Limit
Un-restricted Band Emissions Limit
RF output power procedure
Limit (dB)
Peak output power procedure
20
Average output power procedure
30
Note 1: If the peak output power procedure is used to measure the fundamental emission power to
demonstrate compliance to requirements, then the peak conducted output power measured within
any 100 kHz outside the authorized frequency band shall be attenuated by at least 20 dB relative to
the maximum measured in-band peak PSD level.
Note 2: If the average output power procedure is used to measure the fundamental emission power to
demonstrate compliance to requirements, then the power in any 100 kHz outside of the authorized
frequency band shall be attenuated by at least 30 dB relative to the maximum measured in-band
average PSD level.
3.5.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
3.5.3
Test Procedures
Test Method

Refer as KDB 558074, clause 8.5 (11.11 of ANSI C63.10) for non-restricted frequency bands.
3.5.4
Test Setup
Emissions in Non-restricted Frequency Bands
3.5.5
Test Result of Emissions in Non-restricted Frequency Bands
Refer as Appendix D
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3.6
Emissions in Restricted Frequency Bands
3.6.1
Emissions in Restricted Frequency Bands Limit
Restricted Band Emissions Limit
Frequency Range (MHz)
Field Strength (uV/m)
Field Strength (dBuV/m)
Measure Distance (m)
0.009~0.490
2400/F(kHz)
48.5 - 13.8
300
0.490~1.705
24000/F(kHz)
33.8 - 23
30
1.705~30.0
30
29
30
30~88
100
40
88~216
150
43.5
216~960
200
46
Above 960
500
54
Note 1: Test distance for frequencies at or above 30 MHz, measurements may be performed at a distance
other than the limit distance provided they are not performed in the near field and the emissions to
be measured can be detected by the measurement equipment. When performing measurements at
a distance other than that specified, the results shall be extrapolated to the specified distance using
an extrapolation factor of 20 dB/decade (inverse of linear distance for field-strength measurements,
inverse of linear distance-squared for power-density measurements).
Note 2: Test distance for frequencies at below 30 MHz, measurements may be performed at a distance
closer than the EUT limit distance; however, an attempt should be made to avoid making
measurements in the near field. When performing measurements below 30 MHz at a closer distance
than the limit distance, the results shall be extrapolated to the specified distance by either making
measurements at a minimum of two or more distances on at least one radial to determine the proper
extrapolation factor or by using the square of an inverse linear distance extrapolation factor (40
dB/decade). The test report shall specify the extrapolation method used to determine compliance of
the EUT.
Note 3: Using the distance of 1m during the test for above 18 GHz, and the test value to correct for the
distance factor at 3m.
3.6.2
Measuring Instruments
Refer a test equipment and calibration data table in this test report.
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FCC Test Report
3.6.3
Report No. : FR8O0801-01AG
Test Procedures
Test Method

The average emission levels shall be measured in [duty cycle ≥ 98 or duty factor].

Refer as ANSI C63.10, clause 6.10.3 band-edge testing shall be performed at the lowest frequency
channel and highest frequency channel within the allowed operating band.

For the transmitter unwanted emissions shall be measured using following options below:



Refer as KDB 558074, clause 8.6 (11.12 of ANSI C63.10) for restricted frequency bands.
For the transmitter band-edge emissions shall be measured using following options below:

Refer as KDB 558074 clause 8.7.1, When the performing peak or average radiated
measurements, emissions within 2 MHz of the authorized band edge may be measured using the
marker-delta method described below.

Refer as KDB 558074, clause 8.7.2 (6.10.6 of ANSI C63.10) for marker-delta method for
band-edge measurements.

Refer as KDB 558074, clause 8.7.3 for narrower resolution bandwidth (100kHz) using the band
power and summing the spectral levels (i.e., 1 MHz).
Use the following spectrum analyzer settings:
3.6.4

Set RBW=100 kHz for f < 1 GHz; VBW=3 * RBW; Sweep = auto; Detector function = peak;
Trace = max hold.

Set RBW = 1 MHz, VBW= 3MHz for f ≥ 1 GHz for peak measurement.
For average measurement, refer as 1.1.4.
Test Setup
Emissions in Restricted Frequency Bands
9kHz ~30MHz
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FCC Test Report
Report No. : FR8O0801-01AG
30MHz~1GHz
Above 1GHz
3.6.5
Test Result of Emissions in Restricted Frequency Bands (Below 30MHz)
The amplitude of spurious emissions which are attenuated by more than 20dB below the permissible value
has no need to be reported.
3.6.6
Test Result of Emissions in Restricted Frequency Bands
Refer as Appendix E
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FCC Test Report
Report No. : FR8O0801-01AG
Test Equipment and Calibration Data
Instrument for Conducted Test
Instrument
Manufacturer
Model No.
Serial No.
Spec.
Calibration
Date
Calibration
Due Date
Spectrum
Analyzer
R&S
FSV 40
101013
10Hz~40GHz
05/Feb/2018
04/Feb/2019
Power Sensor
Anritsu
MA2411B
0917017
300MHz ~ 40GHz
05/Feb/2018
04/Feb/2019
Power Meter
Anritsu
ML2495A
0949003
300MHz ~ 40GHz
05/Feb/2018
04/Feb/2019
Cable 0.2m
HUBER
MY10710/4
RF Cable - 01
30MHz~1G
11/Jan/2018
10/Jan/2019
Cable 0.2m
HUBER
MY10710/4
RF Cable - 01
1G~18G
11/Jan/2018
10/Jan/2019
Signal
Generator
R&S
SMB100A
181147
100kHz~40GHz
12/Nov/2018
10/Nov/2020
Instrument for Radiated Test
Instrument
Manufacturer
Model No.
Serial No.
Spec.
Calibration
Date
Calibration
Due Date
3m Semi
Anechoic
Chamber
SIDT FRANKONIA
SAC-3M
03CH03-HY
30MHz ~ 1GHz
3m
30/Oct/2018
29/Oct/2019
3m Semi
Anechoic
Chamber
SIDT FRANKONIA
SAC-3M
03CH03-HY
1GHz ~ 18GHz
3m
30/Oct/2018
29/Oct/2019
Amplifier
HP
8447D
2944A08033
10kHz ~ 1.3GHz
23/Apr/2018
19/Apr/2019
Microwave
System
Preamplifier
KEYSIGHT
83017A
MY53270196
1GHz ~ 26.5GHz
05/Sep/2018
04/Sep/2019
Signal Analyzer
R&S
FSV40
101500
10Hz ~ 40GHz
18/Jul/2018
17/Jul/2019
RF Cable-R03m
Jye Bao
RG142
CB021
9kHz ~ 1GHz
29/Jan/2018
28/Jan/2019
RF Cable-high
SUHNER
SUCOFLEX 106
CB222
1GHz ~ 40GHz
29/Jan/2018
28/Jan/2019
Bilog Antenna &
SCHAFFNER/MTJ
5db Attenuator
CBL6112D /
MTJ6102-05
2678 / 001
30MHz ~ 2GHz
07/Jul/2018
06/Jul/2019
Broadband Horn
Antenna
SCHWARZBECK
BBHA 9170
BBHA 9170154
18GHz ~ 40GHz
06/Feb/ 2018
05/Feb/2019
Double Ridged
Guide Horn
Antenna
SCHWARZBECK
BBHA 9120 D
BBHA 9120 D 1531
1GHz ~ 18GHz
18/Apr/ 2018
17/Apr/2019
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: 02
Appendix A
EBW Result
Summary
Mode
Max-N dB
Max-OBW
(Hz)
(Hz)
2.4-2.4835GHz
GFSK
642.5k
1.638M
ITU-Code
Min-N dB
Min-OBW
(Hz)
(Hz)
1M64F1D
640k
1.635M
Max-N dB = Maximum 6dB down bandwidth; Max-OBW = Maximum 99% occupied bandwidth;
Min-N dB = Minimum 6dB down bandwidth; Min-OBW = Minimum 99% occupied bandwidth;
Result
Mode
Result
Limit
Port 1-N dB
Port 1-OBW
(Hz)
(Hz)
(Hz)
GFSK
2402MHz
Pass
500k
640k
1.635M
2438MHz
Pass
500k
642.5k
1.638M
2478MHz
Pass
500k
640k
1.638M
Port X-N dB = Port X 6dB down bandwidth; Port X-OBW = Port X 99% occupied bandwidth;
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Appendix A
EBW Result
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Appendix B
AV Power Result
Summary
Mode
Power
Power
(dBm)
(W)
2.4-2.4835GHz
GFSK
2.19
0.00166
Result
Mode
Result
Gain
Power
Power Limit
(dBi)
(dBm)
(dBm)
GFSK
2402MHz
Pass
3.00
2.19
30.00
2438MHz
Pass
3.00
1.99
30.00
2478MHz
Pass
3.00
1.51
30.00
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Appendix C
PSD Result
Summary
Mode
PD
(dBm/RBW)
2.4-2.4835GHz
GFSK
-6.27
RBW=3kHz.
Result
Mode
Result
Gain
PD
PD Limit
(dBi)
(dBm/RBW)
(dBm/RBW)
GFSK
2402MHz
Pass
3.00
-6.27
8.00
2438MHz
Pass
3.00
-6.75
8.00
2478MHz
Pass
3.00
-7.08
8.00
RBW=3kHz.
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Appendix C
PSD Result
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Appendix D
CSE Non-restricted Band Result
Summary
Mode
Result
Ref
Ref
Limit
Freq
Level
Freq
Level
Freq
Level
Freq
Level
(Hz)
(dBm)
(dBm)
(Hz)
(dBm)
(Hz)
(dBm)
(Hz)
(dBm)
(Hz)
(dBm)
Port
2.4-2.4835GHz
GFSK
Pass
2.402G
3.77
-26.23
2.39741G
-50.44
2.39999G
-35.95
2.48519G
-55.84
2.52771G
-51.68
Mode
Result
Port
Result
Ref
Ref
Limit
Freq
Level
Freq
Level
Freq
Level
Freq
Level
(Hz)
(dBm)
(dBm)
(Hz)
(dBm)
(Hz)
(dBm)
(Hz)
(dBm)
(Hz)
(dBm)
GFSK
2402MHz
Pass
2.402G
3.77
-26.23
2.39741G
-50.44
2.39999G
-35.95
2.48519G
-55.84
2.52771G
-51.68
2438MHz
Pass
2.402G
3.77
-26.23
49.83M
-58.07
2.39817G
-58.98
2.4855G
-58.87
2.50239G
-52.50
2478MHz
Pass
2.402G
3.77
-26.23
2.39149G
-60.25
2.39894G
-56.38
2.48353G
-49.86
2.54179G
-50.81
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Appendix D
CSE Non-restricted Band Result
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Appendix E.1
RSE TX below 1GHz Result
Summary
Mode
Result
Type
Freq
Level
Limit
Margin
Factor
Dist
(Hz)
(dBuV/m)
(dBuV/m)
(dB)
(dB)
(m)
Condition
Azimuth
Height
(°)
(m)
Comments
2.4-2.4835GHz
GFSK
Pass
PK
144.46M
31.14
43.50
-12.36
-8.55
Horizontal
360
1.00
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Appendix E.1
RSE TX below 1GHz Result
Result
Mode
Result
Type
Freq
Level
Limit
Margin
Factor
Dist
(Hz)
(dBuV/m)
(dBuV/m)
(dB)
(dB)
(m)
Condition
Azimuth
Height
(°)
(m)
Comments
GFSK
2438MHz
Pass
PK
45.52M
25.46
40.00
-14.54
-8.08
Vertical
1.00
2438MHz
Pass
PK
148.34M
22.72
43.50
-20.78
-8.39
Vertical
1.00
2438MHz
Pass
PK
198.78M
21.71
43.50
-21.79
-11.00
Vertical
1.00
2438MHz
Pass
PK
474.26M
26.91
46.00
-19.09
-3.23
Vertical
1.00
2438MHz
Pass
PK
563.5M
28.30
46.00
-17.70
-1.40
Vertical
1.00
2438MHz
Pass
PK
786.6M
32.46
46.00
-13.54
3.12
Vertical
1.00
2438MHz
Pass
PK
88M
23.80
40.00
-16.20
-14.16
Horizontal
360
1.00
2438MHz
Pass
PK
144.46M
31.14
43.50
-12.36
-8.55
Horizontal
360
1.00
2438MHz
Pass
PK
260.86M
25.90
46.00
-20.10
-9.00
Horizontal
360
1.00
2438MHz
Pass
PK
429.64M
26.31
46.00
-19.69
-4.15
Horizontal
360
1.00
2438MHz
Pass
PK
582.9M
30.02
46.00
-15.98
-0.81
Horizontal
360
1.00
2438MHz
Pass
PK
815.7M
32.70
46.00
-13.30
3.52
Horizontal
360
1.00
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Appendix E.1
RSE TX below 1GHz Result
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Appendix E.1
RSE TX below 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
Summary
Mode
Result
Type
Freq
Level
Limit
Margin
Factor
Dist
(Hz)
(dBuV/m)
(dBuV/m)
(dB)
(dB)
(m)
Condition
Azimuth
Height
(°)
(m)
Comments
2.4-2.4835GHz
GFSK
Pass
AV
2.37394G
44.80
54.00
-9.20
-1.65
Horizontal
43
1.14
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Appendix E.2
RSE TX above 1GHz Result
Result
Mode
Result
Type
Freq
Level
Limit
Margin
Factor
Dist
(Hz)
(dBuV/m)
(dBuV/m)
(dB)
(dB)
(m)
Condition
Azimuth
Height
(°)
(m)
Comments
GFSK
2402MHz
Pass
AV
2.38968G
42.08
54.00
-11.92
-1.59
Vertical
341
1.26
2402MHz
Pass
AV
2.40214G
94.69
Inf
-Inf
-1.54
Vertical
341
1.26
2402MHz
Pass
PK
2.38997G
54.24
74.00
-19.76
-1.59
Vertical
341
1.26
2402MHz
Pass
PK
2.40214G
95.56
Inf
-Inf
-1.54
Vertical
341
1.26
2402MHz
Pass
AV
2.38562G
42.27
54.00
-11.73
-1.61
Horizontal
34
1.26
2402MHz
Pass
AV
2.40214G
95.08
Inf
-Inf
-1.54
Horizontal
34
1.26
2402MHz
Pass
PK
2.38954G
54.94
74.00
-19.06
-1.59
Horizontal
34
1.26
2402MHz
Pass
PK
2.402G
95.70
Inf
-Inf
-1.54
Horizontal
34
1.26
2402MHz
Pass
AV
4.80429G
36.95
54.00
-17.05
4.94
Vertical
156
1.27
2402MHz
Pass
PK
4.80464G
55.04
74.00
-18.96
4.94
Vertical
156
1.27
2402MHz
Pass
AV
4.80425G
37.40
54.00
-16.60
4.94
Horizontal
249
1.24
2402MHz
Pass
PK
4.80403G
55.26
74.00
-18.74
4.94
Horizontal
249
1.24
2438MHz
Pass
AV
2.37423G
42.14
54.00
-11.86
-1.65
Vertical
338
1.06
2438MHz
Pass
AV
2.43829G
92.61
Inf
-Inf
-1.40
Vertical
338
1.06
2438MHz
Pass
AV
2.4893G
42.26
54.00
-11.74
-1.22
Vertical
338
1.06
2438MHz
Pass
PK
2.37597G
53.05
74.00
-20.95
-1.64
Vertical
338
1.06
2438MHz
Pass
PK
2.438G
93.26
Inf
-Inf
-1.40
Vertical
338
1.06
2438MHz
Pass
PK
2.48409G
52.45
74.00
-21.55
-1.23
Vertical
338
1.06
2438MHz
Pass
AV
2.37394G
44.80
54.00
-9.20
-1.65
Horizontal
43
1.14
2438MHz
Pass
AV
2.43829G
96.13
Inf
-Inf
-1.40
Horizontal
43
1.14
2438MHz
Pass
AV
2.49336G
42.67
54.00
-11.33
-1.19
Horizontal
43
1.14
2438MHz
Pass
PK
2.38814G
53.01
74.00
-20.99
-1.59
Horizontal
43
1.14
2438MHz
Pass
PK
2.43771G
96.74
Inf
-Inf
-1.40
Horizontal
43
1.14
2438MHz
Pass
PK
2.49394G
52.91
74.00
-21.09
-1.19
Horizontal
43
1.14
2438MHz
Pass
AV
4.87617G
36.67
54.00
-17.33
5.15
Vertical
263
1.25
2438MHz
Pass
PK
4.87585G
52.65
74.00
-21.35
5.15
Vertical
263
1.25
2438MHz
Pass
AV
4.87626G
37.12
54.00
-16.88
5.15
Horizontal
253
1.20
2438MHz
Pass
PK
4.87609G
54.29
74.00
-19.71
5.15
Horizontal
253
1.20
2478MHz
Pass
AV
2.47814G
92.14
Inf
-Inf
-1.26
Vertical
350
1.19
2478MHz
Pass
AV
2.49365G
42.46
54.00
-11.54
-1.19
Vertical
350
1.19
2478MHz
Pass
PK
2.478G
92.80
Inf
-Inf
-1.26
Vertical
350
1.19
2478MHz
Pass
PK
2.48467G
57.13
74.00
-16.87
-1.23
Vertical
350
1.19
2478MHz
Pass
AV
2.47814G
94.92
Inf
-Inf
-1.26
Horizontal
349
1.01
2478MHz
Pass
AV
2.48525G
42.85
54.00
-11.15
-1.23
Horizontal
349
1.01
2478MHz
Pass
PK
2.478G
95.56
Inf
-Inf
-1.26
Horizontal
349
1.01
2478MHz
Pass
PK
2.48365G
58.85
74.00
-15.15
-1.23
Horizontal
349
1.01
2478MHz
Pass
AV
4.95633G
35.14
54.00
-18.86
5.37
Vertical
162
1.30
2478MHz
Pass
PK
4.95602G
50.56
74.00
-23.44
5.36
Vertical
162
1.30
2478MHz
Pass
AV
4.9563G
35.90
54.00
-18.10
5.37
Horizontal
112
1.67
2478MHz
Pass
PK
4.9561G
51.36
74.00
-22.64
5.36
Horizontal
112
1.67
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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Appendix E.2
RSE TX above 1GHz Result
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SupercedeNo
Document TypeTest Report
Display FormatAdobe Acrobat PDF - pdf
Filesize110.75kB (1384386 bits)
Date Submitted2019-01-29 00:00:00
Date Available2019-02-11 00:00:00
Creation Date2018-12-21 15:49:40
Producing SoftwareMicrosoft® Word 2010
Document Lastmod2018-12-24 12:57:04
Document TitleTest report
Document CreatorMicrosoft® Word 2010
Document Author: Bunny Yao (姚金鴻)

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Author                          : Bunny Yao (姚金鴻)
Create Date                     : 2018:12:21 15:49:40+08:00
Modify Date                     : 2018:12:24 12:57:04+08:00
Title                           : 
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XMP Toolkit                     : Adobe XMP Core 5.6-c015 84.159810, 2016/09/10-02:41:30
Metadata Date                   : 2018:12:24 12:57:04+08:00
Creator Tool                    : Microsoft® Word 2010
Format                          : application/pdf
Creator                         : Bunny Yao (姚金鴻)
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Producer                        : Microsoft® Word 2010
Page Count                      : 45